S H Hosseini Moghadam scite author profile

Amaranthus retroflexus L. and Chenopodium album L. (Amaranthaceae) are weedy plants that cause severe ecological and economic damage. In this study, we collected DNA from three different countries and assessed genetic diversity using inter-simple sequence repeat (ISSR) markers. Our analysis shows both weed species have low genetic diversity within a population and high genetic diversity among populations, as well as a low value of gene flow among the populations. UPGMA clustering and principal coordinate analysis indicate four distinct groups for A. retroflexus L. and C. album L. exist. We detected significant isolation-by-distance for A. retroflexus L. and no significant correlation for C.album L. These conclusions are based data from 13 ISSR primers where the average percentage of polymorphism produced was 98.46% for A. retroflexus L. and 74.81% for C. album L.These data suggest that each population was independently introduced to the location from which it was sampled and these noxious weeds come armed with considerable genetic variability giving them the opportunity to manifest myriad traits that could be used to avoid management practices. Our results, albeit not definitive about this issue, do not support the native status of C. album L. in Iran.

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Redroot Pigweed (Amaranthus retroflexus L.) and Lamb’s Quarters (Chenopodium album L.) Populations Exhibit a High Degree of Morphological and Biochemical Diversity

Moghadam

Ahmad

Mohebodini

et al. 2021

Front. Plant Sci.

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Amaranthus retroflexus L. and Chenopodium album L. are noxious weeds that have a cosmopolitan distribution. These species successfully invade and are adapted to a wide variety of diverse climates. In this paper, we evaluated the morphology and biochemistry of 16 populations of A. retroflexus L. and 17 populations of C. album L. Seeds from populations collected from Spain, France, and Iran were grown together at the experimental field of the agriculture research of University of Mohaghegh Ardabili, and a suite of morphological traits and biochemical traits were assessed. Among the populations of A. retroflexus L. and of C. album L. were observed significant differences for all the measured traits. The number of branches (BN) for A. retroflexus L. (12.22) and inflorescence length (FL; 14.34) for C. album L. were the two characteristics that exhibited the maximum coefficient of variation. Principal component analysis of these data identified four principal components for each species that explained 83.54 (A. retroflexus L.) and 88.98 (C. album L.) of the total variation. A dendrogram based on unweighted neighbor-joining method clustered all the A. retroflexus L. and C. album L. into two main clusters and four sub-clusters. Canonical correlation analysis (CCA) was used to evaluate relationships between climate classification of origin and traits. Similarly, the measured characteristics did not group along Köppen climate classification. Both analyses support the conclusion that A. retroflexus L. and C. album L. exhibit high levels of diversity despite similar environmental histories. Both species also exhibit a high diversity of the measured biochemical compounds indicating that they exhibit different metabolic profiles even when grown concurrently and sympatrically. Several of the biochemical constituents identified in our study could serve as effective indices for indirect selection of stresses resistance/tolerance of A. retroflexus L. and C. album L. The diversity of the morphological and biochemical traits observed among these populations illustrates how the unique selection pressures faced by each population can alter the biology of these plants. This understanding provides new insights to how these invasive plant species successfully colonize diverse ecosystems and suggests methods for their management under novel and changing environmental conditions.

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Genetic Variation of Amaranthus Retroflexus L. and Chenopodium Album L. Suggests Multiple Independent Introductions

Moghadam

Mohebodini

MacGregor

et al. 2021

Preprint

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Amaranthus retroflexus L. and Chenopodium album ‎L. ‎are invasive plants that globally cause severe ecological and economic damage. In this ‎study, we collected‏ DNA from ‏populations of these highly successful invaders from three ‎countries and assessed genetic diversity using inter-simple sequence repeat (ISSR) markers. Both weed species showed low genetic ‎diversity within a population and high genetic diversity among populations (GST = 0.82), and the value of gene flow among the populations was low (Nm = 0.1). Both UPGMA ‎clustering and principal coordinate analysis indicated the existence of four distinct groups for ‎A. retroflexus L. and C. album L., however these groups do not correlate with geographic ‎origin. The high levels of genetic diversity observed among populations indicates that ‎each population was individually introduced, probably through human activity. This‎ knowledge helps to guide weed management and control strategies for field populations of these two prominent invasive weeds ‎as it demonstrates each population must be considered separately and suggests they are ‎armed with a considerable variety of genetic traits that could be used to avoid management ‎practices.

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